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Structure of CaC 6. Graphite forms intercalation compounds with some metals and small molecules. In these compounds, the host molecule or atom gets "sandwiched" between the graphite layers, resulting in a type of compound with variable stoichiometry. A prominent example of an intercalation compound is potassium graphite, denoted by the formula ...
Graphene (/ ˈ ɡ r æ f iː n /) [1] is a carbon allotrope consisting of a single layer of atoms arranged in a honeycomb planar nanostructure. [2] [3] The name "graphene" is derived from "graphite" and the suffix -ene, indicating the presence of double bonds within the carbon structure.
The Laves graph or K 4 crystal is a theoretically predicted three-dimensional crystalline metastable carbon structure in which each carbon atom is bonded to three others, at 120° angles (like graphite), but where the bond planes of adjacent layers lie at an angle of 70.5°, rather than coinciding.
The structure of graphite was identified in 1916 [7] by the related method of powder diffraction. [8] It was studied in detail by Kohlschütter and Haenni in 1918, who described the properties of graphite oxide paper. [9] Its structure was determined from single-crystal diffraction in 1924. [10] The theory of graphene was first explored by P. R ...
In so-called stage 1 compounds, graphite layers and intercalated layers alternate and in stage 2 compounds, two graphite layers with no guest material in between alternate with an intercalated layer. The actual composition may vary and therefore these compounds are an example of non-stoichiometric compounds.
Intercalation is the reversible inclusion or insertion of a molecule (or ion) into layered materials with layered structures. Examples are found in graphite and transition metal dichalcogenides. [1] [2] Model of intercalation of potassium into graphite
The structure and properties of graphite oxide depend on the particular synthesis method and degree of oxidation. [11] [12] It typically preserves the layer structure of the parent graphite, but the layers are buckled and the interlayer spacing is about two times larger (~0.7 nm) than that of graphite. Strictly speaking "oxide" is an incorrect ...
A B 36 cluster might be seen as smallest borophene; front and side view. Borophene is a crystalline atomic monolayer of boron and is also known as boron sheet.First predicted by theory in the mid-1990s in a freestanding state, [21] and then demonstrated as distinct monoatomic layers on substrates by Zhang et al., [22] different borophene structures were experimentally confirmed in 2015.